Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A recently developed series of highly selective and systemically active delta-agonists such as Tyr-X-Gly-Phe-Leu-Thr(OtBu), with X = D-Ser (OtBu) in BUBU and X = D-Cys(OtBu) in BUBUC, and complete inhibitors of enkephalin metabolism (Kelatorphan, RB 38A, RB 101) have enabled the major role played by mu-opioid receptors in supraspinal analgesia to be demonstrated. This is in agreement with the results of in vivo mu-receptor occupancy measured by taking into account the cross-reactivity of the delta-ligand for mu-sites. In contrast mu and delta binding sites seem to act independently to control pain at the spinal level. Strong analgesic effects can also be obtained by complete protection of tonically or phasically released endogenous enkephalins with mixed inhibitors. Chronic i.c.v. administration of the mu agonist DAMGO, led to a severe naloxone precipitated withdrawal syndrome whilst a weak dependence was seen with the delta agonist, DSTBULET or with RB 38A and none after repeated i.p. injection of RB 101, a systemically active mixed inhibitor. Moreover, chronic administration of RB 101 did not induce antinociceptive tolerance, a major side effect observed during chronic administration of opiates. These differences could be related to a more efficient and selective stimulation of opioid receptors by the endogenous enkephalins. This suggest that the large changes in receptor density, adenylate cyclase activity or phosphorylation of proteins following chronic morphine treatment is not significantly triggered by occupation of the opioid receptors by their natural ligands. All these data emphasize the interest in developing delta-agonists and mixed inhibitors with appropriate bioavailability for clinical evaluation.
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PMID:[Selective opioid agonists and inhibitors of enkephalin degradation enzymes: pharmacological and clinical values]. 133 50

1. The purpose of the present study was to relate the effects of the novel drug, anpirtoline, on 5-hydroxytryptamine (5-HT) receptor subtypes to its antinociceptive and antidepressant-like actions in rodents. 2. Binding assays with rat brain membranes have shown that anpirtoline bound with a much higher affinity to 5-HT1B receptor (Ki = 28 nM) than to 5-HT1A (Ki = 150 nM) and 5-HT2 (Ki = 1.49 microM) receptors. 3. Like 5-HT, anpirtoline concentration-dependently inhibited forskolin-stimulated adenylate cyclase activity in homogenates from the rat substantia nigra. Both effects were not additive, and could be prevented by 5-HT1B receptor antagonists such as propranolol and penbutolol. 4. In superfused rat and pig brain cortex slices preincubated with [3H]-5-HT, the electrically evoked tritium overflow was inhibited by anpirtoline and 5-HT. Whereas 5-HT was equipotent in both tissues (EC50 = 69 nM), anpirtoline was markedly less potent in pig brain cortex slices (EC50 = 1190 nM) than in rat brain cortex slices (EC50 = 55 nM). The concentration-response curve for anpirtoline was shifted to the right by metitepine in both preparations. 5. In the social behaviour deficit test, anpirtoline and trifluoromethylphenyl-piperazine were effective in reversing the isolation-induced impairments in mice, an effect shown only by compounds with agonist properties at the 5-HT1B receptor. 6. In the electrostimulated pain test using mice, anpirtoline dose-dependently increased the pain threshold with an ED50 of 0.52 mg kg-1, i.p. The antinociceptive activity of anpirtoline was abolished by pretreatment with cyproheptadine or propranolol.7. In the forced swimming test in rats, anpirtoline induced a dose-related increase in swimming activity. With an ED50 value of 4.6mgkg-1, i.p., anpirtoline was 4 times more potent than the two standard compounds imipramine and desipramine. The decrease of immobility time or the increase of active periods in this model of behavioural despair is suggested to be characteristic of antidepressant drugs.8. Anpirtoline exhibits both antinociceptive and antidepressant-like activities in animals. It is probable that anpirtoline elicits these pharmacological effects via its agonist effect on 5-HT1B and 5-HT1A receptors.
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PMID:Anpirtoline, a novel, highly potent 5-HT1B receptor agonist with antinociceptive/antidepressant-like actions in rodents. 162 59

A new model of chronic hypersensitivity was developed in the rat by daily intraplantar administration of either prostaglandin E2 dopamine or isoprenaline, for a period of 2 weeks. Like other hyperalgesic mediators, dibutyryl-cAMP, when applied to the paws, caused an acute effect but did not produce persistent hypersensitivity. The persistent hypersensitive state was not affected by a typical non-steroidal anti-inflammatory drug (indomethacin), was temporarily inhibited by a centrally acting analgesic (morphine), was partially inhibited by a protein synthesis inhibitor (cycloheximide) and abolished by a single dose of peripherally acting analgesics such as dipyrone or N-methyl morphine. Once the residual hypersensitivity had been abolished with dipyrone or N-methyl morphine, a small dose of prostaglandin E2, dopamine or Interleukin-1 beta, which in normal animals causes a mild and short lived effect, restored the persistent hypersensitive state. This ability to restore the persistent effect was not observed with intraplantar administration of dibutyryl-cAMP. Our results suggest the existence of a peripheral trace of inflammatory pain, a phenomenon which may be associated with stimulation of neuronal adenylate cyclase and protein synthesis. This concept may explain part of the puzzle of chronic inflammatory pain and lead to the development of new analgesics.
Pain 1990 Sep
PMID:Induction, blockade and restoration of a persistent hypersensitive state. 217 28

The ability of serotonin derivatives to stimulate cAMP accumulation in isolated nerve terminals and lumbar enlargement of the spinal cord of normal rats was compared. The effect of the compounds on the intensity of spinal pain syndrome was also assessed. It has been established that substitutes injected into NH2-group of serotonin in 5-OH position attenuate the ability to stimulate cAMP accumulation in synaptosomes, with the effect more pronounced with substitutes of larger volume. A certain correlation between the ability of serotonin derivatives to stimulate adenylate cyclase in vivo and in vitro, on the one hand, and their analgetic effect, on the other hand, is suggested.
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PMID:[Mechanism of the suppression of the spinal pain syndrome by serotonin derivatives]. 300 76

The onset of therapeutic effectiveness of carbamazepine is generally very rapid in the treatment of seizure and paroxysmal pain disorders, shows some lag in the treatment of mania, and exhibits the longest lag in depression. These time course variations may indicate that different mechanisms underlie the efficacy of carbamazepine in the differential neuropsychiatric syndromes. Biochemical and pharmacological data suggest that the anticonvulsant effects of carbamazepine are related to "peripheral-type" benzodiazepine and alpha 2-noradrenergic receptor systems and to its ability to stabilize sodium channels. GABAB (baclofen-like) actions appear to be involved in antinociceptive, but not anticonvulsant, effects. The relatively acute time course of antimanic efficacy may be related to the above-mentioned mechanisms or to other effects related to systems postulated to be altered in the manic syndrome. These effects might include carbamazepine's ability to increase acetylcholine in the striatum, decrease probenecid-induced levels of CSF homovanillic acid (HVA) in man and dopamine turnover in animals, decrease CSF norepinephrine in manic patients, inhibit adenylate cyclase activity (in response to norepinephrine, dopamine, adenosine, or ouabain), decrease GABA turnover, or act as a vasopressin agonist. Efficacy in depression may be related to actions in man that take time or chronic drug administration to develop, such as increases in plasma tryptophan, decreases in CSF somatostatin, decreases in thyroid indices, and increases in urinary free cortisol excretion and, in animals, increases in substance P sensitivity and increases in brain adenosine receptors. The ability of carbamazepine to block the development of lidocaine- and cocaine-induced seizures also requires chronic administration, suggesting that these seizure models may provide a unique perspective for understanding mechanisms of time-dependent effects.
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PMID:Time course of clinical effects of carbamazepine: implications for mechanisms of action. 328 May 60

Serotonin-containing neurones in brain have been proposed to have a role in the control of physiological mechanisms such as sleep, thermoregulation, pain perception and endocrine secretions as well as in the physiopathology of migraine or depressive illness. One difficulty in testing these possibilities lies in the scarcity of pharmacological agents able to interact selectively with the probably multiple classes of serotonin receptors in the central nervous system. Development of such agents would be facilitated by simple in vitro models in which biological responses to serotonin in mammalian brain could be quantified. Thus a serotonin-sensitive adenylate cyclase has been characterized in rat brain, but the response to serotonin is weak in newborn and practically absent in adult animals. In addition, two pharmacologically distinct classes of serotoninergic binding site have been identified using 3H-serotonin and 3H-spiperone as ligands, but their identification as receptors remains to be established. More recently, serotonin has been shown to stimulate phosphorylation of a neuronal protein in slices from the facial motor nucleus, although the receptors mediating this action were not characterized. We now report that serotonin stimulates glycogen hydrolysis in slices of cerebral cortex, that this action is mediated by a novel class of receptors and that tricyclic antidepressants are among the best competitive antagonists of the indolamine.
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PMID:Glycogenolysis induced by serotonin in brain: identification of a new class of receptor. 612 54

Extracellular recordings were made of spontaneous neuronal firing and of nociceptive stimulus-evoked neuronal firing in the mesencephalic reticular formation of the rat. Microiontophoretically administered morphine and met-enkephalin blocked the nociceptive stimulus-evoked neuronal firing of some neurons in the mesencephalic reticular formation; naloxone antagonized the effects of morphine and met-enkephalin. In neurons in which morphine and met-enkephalin blocked the nociceptive stimulus-evoked firing, the microiontophoretic administration of dibutyryl cyclic AMP (cAMP), 8-bromo cAMP and Ro 20,1724 (a phosphodiesterase inhibitor) consistently (96%) reversed this blockade of evoked firing. The effects of dibutyryl cAMP were specific, because butyrate and 5'-AMP, possible metabolites of the cAMP analog, reversed the blockade by morphine and met-enkephalin of the nociceptive stimulus-evoked neuronal firing much less frequently (29%). These result support the hypothesis that the occupation of opiate receptors triggers an inhibition of the enzyme, adenylate cyclase, as a mechanism of action. The cAMP analogs excited the spontaneous firing in only 60% of the neurons in which they reversed the opioid blockade of pain-evoked firing. This suggests that the mechanism of action of the cAMP analogs on spontaneous firing may differ from that on pain-evoked firing.
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PMID:Cyclic AMP, morphine, met-enkephalin and neuronal firing. 627 Mar 11

Using the mouse delta-opioid receptor cDNA as a probe, we have isolated genomic clones encoding the human mu- and kappa-opioid receptor genes. Their organization appears similar to that of the human delta receptor gene, with exon-intron boundaries located after putative transmembrane domains 1 and 4. The kappa gene was mapped at position q11-12 in human chromosome 8. A full-length cDNA encoding the human kappa-opioid receptor has been isolated. The cloned receptor expressed in COS cells presents a typical kappa 1 pharmacological profile and is negatively coupled to adenylate cyclase. The expression of kappa-opioid receptor mRNA in human brain, as estimated by reverse transcription-polymerase chain reaction, is consistent with the involvement of kappa-opioid receptors in pain perception, neuroendocrine physiology, affective behavior, and cognition. In situ hybridization studies performed on human fetal spinal cord demonstrate the presence of the transcript specifically in lamina II of the dorsal horn. Some divergences in structural, pharmacological, and anatomical properties are noted between the cloned human and rodent receptors.
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PMID:kappa-Opioid receptor in humans: cDNA and genomic cloning, chromosomal assignment, functional expression, pharmacology, and expression pattern in the central nervous system. 762 59

The mu opiate receptor is a principal brain site for activities of morphine, other opiate drugs, and opioid peptides in modulating pain and altering mood. Recent cloning of cDNAs encoding rat and human mu receptors reveals charged amino acid residues within putative transmembrane domains (TMs) II, III, and VI, a substantial N-terminal extracellular domain, and a C-terminal intracellular domain. Deletion of 64 N-terminal amino acids produced little effect on receptor function (Wang, J.B., Imai, Y., Eppler, C.M., Gregor, P., Spivak, C.E., and Uhl, G.R. (1993) Proc. Natl. Acad. Sci. U.S.A. 90, 10230-10234). Further deletion of 33 C-terminal amino acids yielded a receptor at which morphine, but not the substituted enkephalin DAMGO ([D-Ala2,MePhe4,Glyol5]enkephalin), inhibited adenylate cyclase. Alanine substitution for each charged TM residue in the N-terminally deleted receptor reduced affinities for morphine, DAMGO, and the opiate antagonist naloxone. Replacement of TM II Asp114 with asparagine or glutamic acid increased mu receptor affinity for naloxone. TM II and TM III glutamic acid substitutions for Asp114 and Asp147 reduced agonist binding affinities but allowed full inhibition of adenylate cyclase at high agonist concentrations. TM VI histidine substitution with alanine yielded a receptor that produced almost twice the cyclase inhibition displayed by the wild type receptor in parallel transient expression assays. These findings underscore the importance of charged residues in TM II, III, and VI for different receptor functions and the modest involvement of extensive portions of N- and C-terminal receptor domains in these processes.
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PMID:-mu opiate receptor. Charged transmembrane domain amino acids are critical for agonist recognition and intrinsic activity. 805 Nov 54

Recent studies have suggested that pituitary adenylate cyclase activating peptide (PACAP) may be involved in nociceptive transmission. The present study examined the effect of low-dose PACAP-27 on nociceptive behavior using the formalin test. PACAP-27 was administered intrathecally. Twenty minutes later, formalin (50 microliters, 5%) was injected subcutaneously into the dorsal surface of the right hind paw. Intrathecal PACAP-27 at 0.6 pmol suppressed the second phase response to formalin, while 5 pmol depressed both phases. PACAP-27 at 5 pmol did not impair motor function. Hence, the data suggest that the effect of PACAP-27 on formalin-induced pain-related behavior is specific. The findings may lead to a better understanding of the role of PACAP in nociceptive transmission.
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PMID:The effect of pituitary adenylate cyclase activating peptide (PACAP) on the nociceptive formalin test. 872 81


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